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111 |
Isotope engineering of silicon and diamond for quantum computing and sensing applications
Enthalten in Materials Research Society: MRS communications Bd. 4, 15.12.2014, Nr. 4, date:12.2014: 143-157
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112 |
LDPC-cat codes for low-overhead quantum computing in 2D
Enthalten in Nature Communications Bd. 16, 26.1.2025, Nr. 1, date:12.2025: 1-10
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113 |
LLM-generated tips rival expert-created tips in helping students answer quantum-computing questions
Enthalten in EPJ Quantum Technology Bd. 12, 4.3.2025, Nr. 1, date:12.2025: 1-23
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114 |
Modelling carbon capture on metal-organic frameworks with quantum computing
Enthalten in EPJ Quantum Technology Bd. 9, 16.12.2022, Nr. 1, date:12.2022: 1-14
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115 |
Molecular design with automated quantum computing-based deep learning and optimization
Enthalten in npj computational materials Bd. 9, 14.8.2023, Nr. 1, date:12.2023: 1-14
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116 |
Neutral atom quantum computing hardware: performance and end-user perspective
Enthalten in EPJ Quantum Technology Bd. 10, 28.8.2023, Nr. 1, date:12.2023: 1-26
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117 |
On quantum computing for artificial superintelligence
Enthalten in European journal for philosophy of science Bd. 14, 4.6.2024, Nr. 2, date:6.2024: 1-30
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118 |
On the impact of quantum computing technology on future developments in high-performance scientific computing
Enthalten in Ethics and information technology Bd. 19, 31.8.2017, Nr. 4, date:12.2017: 253-269
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119 |
On the potentials of quantum computing – An interview with Heike Riel from IBM Research
Enthalten in Electronic markets Bd. 32, 4.1.2023, Nr. 4, date:12.2022: 2537-2543
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120 |
One-dimensional quantum computing with a ‘segmented chain’ is feasible with today’s gate fidelities
Enthalten in npj Quantum information Bd. 4, 23.5.2018, Nr. 1, date:12.2018: 1-10
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